DE1146919B - Circuit arrangement for eliminating the residual current in a contactless switch with switching choke - Google Patents

Description

Circuit arrangement for eliminating the residual current in a contactless switch with switching throttle The invention relates to a circuit arrangement for eliminating the residual current in a contactless switch with switching throttle. The object of the invention is to improve such arrangements so that they allow the flow of a relatively high operating current with only a small residual current. An already known circuit in which the inductive primary winding of a transformer is provided for the alternating current circuit to be switched, to whose secondary winding a controllable resistor, preferably transistor, is connected, is improved according to the invention in that two transformers are provided and the primary winding of a transformer is parallel to the consumer to be switched off, while the primary winding of the other transformer is connected in series to the consumer and the first-mentioned winding and that the arrangement is dimensioned such that the secondary winding of the transformer parallel to the consumer is short-circuited when the secondary winding of the to the consumer in series transformer in no-load operation, and vice versa. This arrangement makes it possible to largely suppress the residual current flowing through the consumer in the switched-off state, since this is essentially bypassed the consumer.

The invention and further details are explained below with reference to the figures. Fig. 1 shows an already known circuit which forms the starting point of the invention. In the alternating current circuit fed from terminals K1 and K, an electrical consumer V is arranged, which consists of a heating resistor, motor timing relay or the like and is switched on or off by the variable inductance of the primary winding W p of the transformer T. If the secondary winding WS of the transformer T is unloaded, only the relatively low magnetizing current flows through the primary winding W p , which is not sufficient to put the consumer V into operation. If the secondary winding WS is loaded, a current also flows in the primary circuit, which compensates for the field weakening caused by the current flowing in the secondary circuit. The inductive resistance of the primary winding WP drops, and the consumer V receives a current sufficient to start it up.

The controllable resistor loading the secondary winding Ws consists of a transistor H fed by the rectifier G. The base electrode of the transistor H can be connected, for example, to a constant current source B via the voltage divider consisting of the resistors R and R, so that the transistor is blocked is. If you apply a voltage opposite the reverse voltage to the terminals S , and S, which can cause the flow of a base-emitter current, a current flows through the transistor which reduces the load on the secondary winding Ws of the transformer and thus reduces the inductive value Resistance of the primary winding WP causes, whereby the consumer V is switched on. The already known circuit described in FIG. 1 has the disadvantage that a relatively large residual current still flows when the consumer is switched off. On the other hand, a relatively large load on the controllable resistor in the secondary circuit is necessary in order to allow a sufficiently large current to flow in the primary circuit. The arrangements according to the invention described below bring about a far-reaching improvement.

In the arrangement according to the invention, as shown in FIG. 2, two transformers T1 and TZ are provided. The primary winding W p I is connected in series with the consumer V , while the primary winding W p is connected in parallel with the consumer V. If the transistor Hl, which forms the load on the secondary winding Ws of the transformer T1, is blocked, the transistor H., at the base electrode receives a bias voltage which makes it permeable. As a result, the secondary winding W, see., Of the transformer T, is loaded, and the residual voltage dropping at the consumer V due to the magnetizing current of the transformer TI collapses. The transformer T2 is to be regarded as short-circuited on the secondary side in this state.

Claims (1)

PATENT CLAIM: Circuit arrangement for eliminating the residual current in a contactless switch with switching choke, in which the highly inductive primary winding of a transformer is provided in the alternating current circuit to be interrupted, to the secondary winding of which a controllable resistor, preferably transistor, is connected, characterized in that two transformers (T1, T2) are provided and a primary winding (WP Q) is parallel to the consumer (V) to be switched off, while the other primary winding (WP 1) is connected in series with the consumer (V) and the first-mentioned winding (WP,) , and that the arrangement is dimensioned such that the secondary winding (Ws.) of the transformer parallel to the consumer is short-circuited when the secondary winding (Ws 1) of the transformer in series with the consumer is idling, and vice versa.